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Petroleum refining processes
1. Petroleum refining processes
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Petroleum refinery in Anacortes, Washington, United States
Petroleum refining processes are the chemical engineering processes and other facilities used in petroleum
refineries (also referred to as oil refineries) to transform crude oil into useful products such as liquefied
petroleum gas (LPG), gasoline or petrol, kerosene, jet fuel, diesel oil and fuel oils.[1][2][3]
Petroleum refineries are very large industrial complexes that involve many different processing units and
auxiliary facilities such as utility units and storage tanks. Each refinery has its own unique arrangement and
combination of refining processes largely determined by the refinery location, desired products and economic
considerations. There are most probably no two refineries that are identical in every respect.
Some modern petroleum refineries process as much as 800,000 to 900,000 barrels (127,000 to 143,000 cubic
meters) per day of crude oil.
Contents
[hide]
1 History
2 Processing units used in refineries
3 Auxiliary facilities required in refineries
4 The crude oil distillation unit
5 Flow diagram of a typical petroleum refinery
6 Refining end-products
o 6.1 Light distillates
o 6.2 Middle distillates
o 6.3 Heavy distillates
7 References
History[edit]
2. Prior to the nineteenth century, petroleum was known and utilized in various fashions in Babylon, Egypt, China,
Persia, Rome and Azerbaijan. However, the modern history of the petroleum industry is said to have begun in
1846 when Abraham Gessner of Nova Scotia, Canada devised a process to produce kerosene from coal. Shortly
thereafter, in 1854, Ignacy Lukasiewicz began producing kerosene from hand-dug oil wells near the town of
Krosno, now in Poland. The first large petroleum refinery was built in Ploesti, Romania in 1856 using the
abundant oil available in Romania.[4][5]
In North America, the first oil well was drilled in 1858 by James Miller Williams in Ontario, Canada. In the
United States, the petroleum industry began in 1859 when Edwin Drake found oil near Titusville,
Pennsylvania.[6]
The industry grew slowly in the 1800s, primarily producing kerosene for oil lamps. In the early
twentieth century, the introduction of the internal combustion engine and its use in automobiles created a
market for gasoline that was the impetus for fairly rapid growth of the petroleum industry. The early finds of
petroleum like those in Ontario and Pennsylvania were soon outstripped by large oil "booms" in Oklahoma,
Texas and California.[7]
Prior to World War II in the early 1940s, most petroleum refineries in the United States consisted simply of
crude oil distillation units (often referred to as atmospheric crude oil distillation units). Some refineries also had
vacuum distillation units as well as thermal cracking units such as visbreakers (viscosity breakers, units to lower
the viscosity of the oil). All of the many other refining processes discussed below were developed during the
war or within a few years after the war. They became commercially available within 5 to 10 years after the war
ended and the worldwide petroleum industry experienced very rapid growth. The driving force for that growth
in technology and in the number and size of refineries worldwide was the growing demand for automotive
gasoline and aircraft fuel.
In the United States, for various complex economic and political reasons, the construction of new refineries
came to a virtual stop in about the 1980s. However, many of the existing refineries in the United States have
revamped many of their units and/or constructed add-on units in order to: increase their crude oil processing
capacity, increase the octane rating of their product gasoline, lower the sulfur content of their diesel fuel and
home heating fuels to comply with environmental regulations and comply with environmental air pollution and
water pollution requirements.
Processing units used in refineries[edit]
Crude Oil Distillation unit: Distills the incoming crude oil into various fractions for further processing in
other units.
Vacuum distillation unit: Further distills the residue oil from the bottom of the crude oil distillation unit.
The vacuum distillation is performed at a pressure well below atmospheric pressure.
Naphtha hydrotreater unit: Uses hydrogen to desulfurize the naphtha fraction from the crude oil
distillation or other units within the refinery.
Catalytic reforming unit: Converts the desulfurized naphtha molecules into higher-octane molecules to
produce reformate, which is a component of the end-product gasoline or petrol.
Alkylation unit: Converts isobutane and butylenes into alkylate, which is a very high-octane component
of the end-product gasoline or petrol.
Isomerization unit: Converts linear molecules such as normal pentane into higher-octane branched
molecules for blending into the end-product gasoline. Also used to convert linear normal butane into
isobutane for use in the alkylation unit.
Distillate hydrotreater unit: Uses hydrogen to desulfurize some of the other distilled fractions from the
crude oil distillation unit (such as diesel oil).
Merox (mercaptan oxidizer) or similar units: Desulfurize LPG, kerosene or jet fuel by oxidizing
undesired mercaptans to organic disulfides.
3. Amine gas treater, Claus unit, and tail gas treatment for converting hydrogen sulfide gas from the
hydrotreaters into end-product elemental sulfur. The large majority of the 64,000,000 metric tons of
sulfur produced worldwide in 2005 was byproduct sulfur from petroleum refining and natural gas
processing plants.[8][9]
Fluid catalytic cracking (FCC) unit: Upgrades the heavier, higher-boiling fractions from the crude oil
distillation by converting them into lighter and lower boiling, more valuable products.
Hydrocracker unit: Uses hydrogen to upgrade heavier fractions from the crude oil distillation and the
vacuum distillation units into lighter, more valuable products.
Visbreaker unit upgrades heavy residual oils from the vacuum distillation unit by thermally cracking
them into lighter, more valuable reduced viscosity products.
Delayed coking and fluid coker units: Convert very heavy residual oils into end-product petroleum coke
as well as naphtha and diesel oil by-products.
Auxiliary facilities required in refineries[edit]
Steam reformer unit: Converts natural gas into hydrogen for the hydrotreaters and/or the hydrocracker.
Sour water stripper unit: Uses steam to remove hydrogen sulfide gas from various wastewater streams
for subsequent conversion into end-product sulfur in the Claus unit.[10]
Utility units such as cooling towers for furnishing circulating cooling water, steam generators,
instrument air systems for pneumatically operated control valves and an electrical substation.
Wastewater collection and treating systems consisting of API separators, dissolved air flotation (DAF)
units and some type of further treatment (such as an activated sludge biotreater) to make the wastewaters
suitable for reuse or for disposal.[10]
Liquified gas (LPG) storage vessels for propane and similar gaseous fuels at a pressure sufficient to
maintain them in liquid form. These are usually spherical vessels or bullets (horizontal vessels with
rounded ends).
Storage tanks for crude oil and finished products, usually vertical, cylindrical vessels with some sort of
vapour emission control and surrounded by an earthen berm to contain liquid spills.
The crude oil distillation unit[edit]
The crude oil distillation unit (CDU) is the first processing unit in virtually all petroleum refineries. The CDU
distills the incoming crude oil into various fractions of different boiling ranges, each of which are then
processed further in the other refinery processing units. The CDU is often referred to as the atmospheric
distillation unit because it operates at slightly above atmospheric pressure.[1][2][11]
Below is a schematic flow diagram of a typical crude oil distillation unit. The incoming crude oil is preheated
by exchanging heat with some of the hot, distilled fractions and other streams. It is then desalted to remove
inorganic salts (primarily sodium chloride).
Following the desalter, the crude oil is further heated by exchanging heat with some of the hot, distilled
fractions and other streams. It is then heated in a fuel-fired furnace (fired heater) to a temperature of about
398 °C and routed into the bottom of the distillation unit.
The cooling and condensing of the distillation tower overhead is provided partially by exchanging heat with the
incoming crude oil and partially by either an air-cooled or water-cooled condenser. Additional heat is removed
from the distillation column by a pumparound system as shown in the diagram below.
As shown in the flow diagram, the overhead distillate fraction from the distillation column is naphtha. The
fractions removed from the side of the distillation column at various points between the column top and bottom
are called sidecuts. Each of the sidecuts (i.e., the kerosene, light gas oil and heavy gas oil) is cooled by
4. exchanging heat with the incoming crude oil. All of the fractions (i.e., the overhead naphtha, the sidecuts and
the bottom residue) are sent to intermediate storage tanks before being processed further.
Schematic flow diagram of a typical crude oil distillation unit as used in petroleum crude oil refineries.
Flow diagram of a typical petroleum refinery[edit]
The image below is a schematic flow diagram of a typical petroleum refinery that depicts the various refining
processes and the flow of intermediate product streams that occurs between the inlet crude oil feedstock and the
final end-products.
The diagram depicts only one of the literally hundreds of different oil refinery configurations. The diagram also
does not include any of the usual refinery facilities providing utilities such as steam, cooling water, and electric
power as well as storage tanks for crude oil feedstock and for intermediate products and end products.[1][2][12]
5. A schematic flow diagram of a typical petroleum refinery.
Refining end-products[edit]
The primary end-products produced in petroleum refining may be grouped into four categories: light distillates,
middle distillates, heavy distillates and others.
Light distillates[edit]
Liquid petroleum gas (LPG)
Gasoline (also known as petrol)
Heavy Naphtha
6. Light Naphtha
Middle distillates[edit]
Kerosene
Automotive and rail-road diesel fuels
Residential heating fuel
Other light fuel oils
Heavy distillates[edit]
Heavy fuel oils
Bunker fuel oil and other residual fuel oils
octane and other stuff